陈红征

女， 浙江大学

专业领域

高分子化学与物理

学习/工作经历

学习经历
1984.09-1988.06 浙江大学 化学 本科
1988.09-1994.09 浙江大学 高分子化学与物理 博士
工作经历
1994.09-1996.12 浙江大学高分子系 有机光电功能材料 讲师
1996.12-1999.12 浙江大学高分子系 有机光电功能材料 副教授
1999.01-1999.04 香港科技大学化学系 高分子光电功能材料 访问学者
1999.11-2001.04 比利时安特卫普大学（UIA）化学系和高校微电子中心（IMEC）
有机光电材料与器件 访问学者
1999.12-至今 浙江大学高分子系 有机光电功能材料 教授
2002.07-2002.10 比利时IMEC 有机光电材料与器件 访问学者
2003.07-2003.09 比利时IMEC 有机光电材料与器件 访问学者
2005.02-2005.08 斯坦福大学化工系 有机光电功能材料 访问教授
2007.09-2007.11 斯坦福大学化工系 有机光电功能材料 访问教授
2011.04-至今 浙江大学 光电功能高分子 求是特聘教授

学术成就和学术贡献简述

候选人一直从事新型薄膜光伏电池材料与器件的研究，针对如何提高光伏材料的性能，降低其成本，拓展其应用的关键科学技术问题开展研究，取得了具有重要国际学术影响的系列原创性成果：1）在国际上率先将二维钙钛矿应用到光伏领域，研制出国际首例钙钛矿平面异质结光伏器件，被评为“先驱性进展”。 2）创新性提出“非稠合电子受体”新概念和“不对称电子受体”设计新思路，提出“稀释”效应解释多组分光伏体系中非辐射复合的降低机制。3）提出选择性光吸收新模型，实现了兼具半透明发电和红外反射隔热的多功能光伏器件，制备了能量密度创纪录的柔性光伏器件，多次实现当时同类型有机和钙钛矿光伏器件的世界最高效率，推动了新型光伏技术的发展。在Nature Nanotechnology, JACS, Adv. Mater.等期刊发表论文570多篇，其中中国百篇最具影响国际学术论文3篇，他引超过24000多次；连续入选科睿唯安高被引科学家，专著1部。授权国家发明专利60项，部分成果得到转化。荣获全国创新争先奖、浙江省自然科学一等奖（排名第1）和化学会青年化学奖；获基金委杰出青年基金资助，入选教育部跨世纪和浙江省万人计划杰出人才。

化学公益贡献简述

兼任中国化学会有机固体专业委员会委员、中国材料研究学会高分子材料与工程分会常务理事、浙江省复合材料学会理事长、浙江省女科技工作者协会常务理事、能量转换与存储材料化学教育部重点实验室学术委员会委员、美国化学会期刊《ACS Applied Polymer Materials》和中国化学会期刊 《高分子通报》副主编、《Chinese Chemical Letters》、《Chinese Journal of Polymer Science》、《物理化学学报》和《材料研究学报》期刊编委等。积极组织和参与中国化学会相关活动，与李永舫院士一起作为分会主席先后承担了中国化学会共5届学术年会光伏分会的组织工作，2次获得优秀分会组织奖；组织国际会议9次；在国内外重要学术会议上做大会或邀请报告70余次。毕业研究生中5人入选国家青年人才计划, 培养国家杰青2名。

代表性成果

1. 代表性论文：作者（按原排序），题目，期刊名称，卷（期）（年），起止页码；
1) Tianyi Chen, Shuixing Li, Yaokai Li, Zeng Chen, Haotian Wu, Yi Lin, Yuan Gao, Mengting Wang, Guanyu Ding, Jie Min, Zaifei Ma, Haiming Zhu, Lijian Zuo* and Hongzheng Chen*, Compromising charge generation and recombination of organic photovoltaics with mixed diluents strategy for certified 19.4% efficiency, Advanced Materials, 35 (2023), 2300400.
2) Tianyi Chen, Xiangjun Zheng, Di Wang, Yuxuan Zhu, Yanni Ouyang, Jingwei Xue, Mengting Wang, Shanlu Wang, Wei Ma, Chunfeng Zhang, Zaifei Ma, Shuixing Li*, Lijian Zuo* and Hongzheng Chen*, Delayed Crystallization Kinetics Allowing High-Efficiency All-Polymer Photovoltaics with Superior Up-Scaled Manufacturing, Advanced Materials, 35 (2023), 2308061
3) Xiangjun Zheng, Lijian Zuo,* Kangrong Yan, Shiqi Shan, Tianyi Chen, Guanyu Ding, Bowei Xu, Xi Yang, Jianhui Hou, Minmin Shi* and Hongzheng Chen*, Versatile organic photovoltaics with a power density of nearly 40 W g-1, Energy & Environmental Science, 16(2023), 2284 – 2294
4) Shuixing Li,‡ Chengliang He,‡ Tianyi Chen,‡ Jiale Zheng,‡ Rui Sun, Jin Fang, Yiyao Chen, Youwen Pan, Kangrong Yan, Chang-Zhi Li, Minmin Shi, Lijian Zuo, Chang-Qi Ma, Jie Min, Yujing Liu* and Hongzheng Chen*, Refined molecular microstructure and optimized carrier management of multicomponent organic photovoltaics toward 19.3% certified efficiency, Energy & Environmental Science, 16(2023), 2262 – 2273
5) Shitao Guan, Yaokai Li, Kangrong Yan, Weifei Fu, Lijian Zuo*, and Hongzheng Chen*, Balancing the selective absorption and photon-to-electron conversion for semitransparent organic photovoltaics with 5.0% light utilization sufficiency, Advanced Materials, 34 (41) (2022), 2205844.
6) Chengliang He, Youwen Pan, Baohua Wu, Xinxin Xia, Zeng Chen, Haiming Zhu, Chang-Qi Ma, Xinhui Lu, Wei Ma, Guanghao Lu, Lijian Zuo*, and Hongzheng Chen*, Versatile sequential casting processing for highly efficient and stable binary organic photovaltaics, Advanced Materials, 34 (33) (2022), 2203379.
7) Xiaomei Lian#, Lijian Zuo#*, Bowen Chen#, Biao Li#, Haotian Wu, Shiqi Shan, Gang Wu, Xuegong Yu*, Qi Chen*, Liwei Chen, Deren Yang, David Cahen, and Hongzheng Chen*, Light-induced beneficial ion accumulation for high-performance quasi-2D perovskite solar cells, Energy & Environmental Science, 15 (6) (2022), 2499-2507.
8) Chengliang He, Youwen Pan, Yanni Ouyang, Qing Shen, Yuan Gao, Kangrong Yan, Jin Fang, Yiyao Chen, Changqi Ma, Jie Min, Chunfeng Zhang, Lijian Zuo*, and Hongzheng Chen*, Manipulating the D:A interfacial energetics and intermolecular packing for 19.2% efficiency organic photovoltaics, Energy & Environmental Science, 15 (6) (2022), 2537-2544.
9) Xiangjun Zheng, Lijian Zuo,* Feng Zhao, Yaokai Li, Tianyi Chen, Shiqi Shan, Kangrong Yan, Youwen Pan, Bowei Xu, Chang-Zhi Li, Minmin Shi,* Jianhui Hou,* and Hongzheng Chen*, High-Efficiency ITO-Free Organic Photovoltaics with Superior Flexibility and Up-Scalability, Advanced Materials, 34 (17) (2022), 2200044.
10) Lingling Zhan, Shuixing Li, Yaokai Li, Rui Sun, Jie Min,* Zhaozhao Bi, Wei Ma, Zeng Chen, Guangqing Zhou, Haiming Zhu, Minmin Shi, Lijian Zuo,* and Hongzheng Chen*, Desired open-circuit voltage increase enables efficiencies approaching 19% in symmetric-asymmetric molecule ternary organic photovoltaics, Joule, 6 (3) (2022), 662-675.
11) Yaokai Li,‡ Yuan Guo,‡ Zeng Chen,‡ Lingling Zhan,‡ Chengliang He, Zhaozhao Bi, Nannan Yao, Shuixing Li, Guanqing Zhou, Yuanping Yi,* Yang (Michael) Yang, Haiming Zhu, Wei Ma, Feng Gao, Fengling Zhang, Lijian Zuo,* Hongzheng Chen*, Mechanism study on organic ternary photovoltaics with 18.3% certified efficiency: from molecule to device, Energy & Environmental Science, 15 (2) (2022), 855-865.
12) Chengliang He, Zeng Chen, Tonghui Wang, Ziqiu Shen, Yaokai Li, Jiadong Zhou, Jianwei Yu, Huiyu Fang, Yuhao Li, Shuixing Li, Xinhui Lu, Wei Ma, Feng Gao, Zengqi Xie, Veaceslav Coropceanu*, Haiming Zhu*, Jean-Luc Bredas, Lijian Zuo*, and Hongzheng Chen*, Asymmetric electron acceptor enables highly luminescent organic solar cells with certified efficiency over 18%, Nature Communications, 13 (2022), 2598.
13) Lijian Zuo+, Sae Byeok Jo+, Yaokai Li+, Yuhuan Meng, Ryan J. Stoddard, Yun Liu, Francis Lin, Xueliang Shi, Feng Liu, Hugh W. Hillhouse, David S. Ginger, Hongzheng Chen*, and Alex K.-Y. Jen*, Dilution effect for highly efficient multiple-component organic solar cells, Nature Nanotechnology, 17 (2022), 53-60.
14) Shuixing Li+, Lingling Zhan+, Nannan Yao, Xinxin Xia, Zeng Chen, Weitao Yang, Chengliang He, Lijian Zuo*, Minmin Shi, Haiming Zhu, Xinhui Lu, Fengling Zhang, and Hongzheng Chen*, Unveiling structure-performance relationships from multi-scales in non-fullerene organic photovoltaics, Nature Communications, 12 (2021), 4627.
15) Yaokai Li+, Chengliang He+, Lijian Zuo*, Feng Zhao, Lingling Zhan, Xin Li, Ruoxi Xia, Hin-Lap Yip, Chang-Zhi Li, Xu Liu, and Hongzheng Chen*, High-performance semi-transparent organic photovoltaic devices via improving absorbing selectivity, Advanced. Energy Materials, 11 (11) (2021), 2003408.
16) Lingling Zhan+, Shuixing Li+, Xinxin Xia, Yaokai Li, Xinhui Lu*, Lijian Zuo*, Minmin Shi, and Hongzheng Chen*, Layer-by-layer processed ternary organic photovoltaics with efficiency over 18%, Advanced Materials, 33 (12) (2021), 2007231.
17) Shuixing Li, Lingling Zhan, Yingzhi Jin, Guanqing Zhou, Tsz-Ki Lau, Ran Qin, Minmin Shi*, Chang-Zhi Li, Haiming Zhu, Xinhui Lu, Fengling Zhang*, and Hongzheng Chen*, Asymmetric electron acceptors for high-efficiency and low-energy-loss organic photovoltaics, Advanced Materials, 32 (24) (2020), 2001160.
18) Lingling Zhan, Shuixing Li, Tsz-Ki Lau, Yong Cui, Xinhui Lu*, Minmin Shi*, Chang-Zhi Li, Hanying Li, Jianhui Hou and Hongzheng Chen*, Over 17% efficiency ternary organic solar cells enabled by two non-fullerene acceptors working in alloy-like model, Energy & Environmental Science, 13 (2) (2020), 635-645.
19) Xiaomei Lian, Jiehuan Chen, Minchao Qin, Yingzhu Zhang, Shuoxun Tian, Xinhui Lu, Gang Wu* and Hongzheng Chen*, The second spacer cation assisted growth of 2D perovskite film with oriented large grain for highly efficient and stable solar cells, Angewandte Chemie- Intenational Edition, 131 (28) (2019), 9409-9413.
20) Shuixing Li, Lingling Zhan, Chenkai Sun, Haiming Zhu,* Guanqing Zhou,| Weitao Yang, Minmin Shi*, Chang-Zhi Li*, Jianhui Hou, Yongfang Li, and Hongzheng Chen*, Highly efficient fullerene-free organic solar cells operate at near zero highest occupied molecular orbital offsets, Journal of the American Chemical Sociey, 141 (7) (2019), 3073-3082.
21) Shuixing Li, Lingling Zhan, Feng Liu,* Jie Ren, Minmin Shi,* Chang-Zhi Li, Thomas P. Russell, and Hongzheng Chen*, An unfused-core based non-fullerene acceptor enables high-efficiency organic solar cells with excellent morphological stability at high temperatures, Advanced Materials, 30 (6) (2018), 1705208.
22) Xinqian Zhang, Gang Wu*, Weifei Fu, Minchao Qin, Weitao Yang, Jielin Yan, Zhongqiang Zhang, Xinhui Lu* and Hongzheng Chen*, Orientation regulation of phenylethylammonium cation based 2D perovskite solar cell with efficiency higher than 11%, Advanced Energy Materials, 8 (14) (2018), 1702498.
23) Wenqing Liu, Shuixing Li, Jiang Huang, Shida Yang, Jiehuan Chen, Lijian Zuo, Minmin Shi, Xiaowei Zhan, Chang-Zhi Li*, and Hongzheng Chen*, Nonfullerene tandem organic solar cells with high open-circuit voltage of 1.97 V, Advanced. Materials,28 (44) (2016), 9729-9734.
24) Chuyi Huang+, Weifei Fu+, Chang-Zhi Li*, Zhongqiang Zhang, Weiming Qiu, Minmin Shi, Paul Heremans, Alex K.-Y. Jen*, and Hongzheng Chen*, A dopant-free hole-transporting material with a C3h symmetrical truxene core for highly efficient perovskite solar cells, Journal of the American Chemical Society, 138 (8) (2016), 2528-2531.
25) Shuixing Li, Wenqing Liu, Minmin Shi,*Jiangquan Mai, Tsz-Ki Lau, Junhua Wan, Xinhui Lu, Chang-Zhi Li*, and Hongzheng Chen*, A spirobifluorene and diketopyrrolopyrrole moieties based non-fullerene acceptor for efficient and thermally stable polymer solar cells with high open-circuit voltage, Energy & Environmental Science, 9 (2) (2016), 604-610.
26) Lijian Zuo , Zhuowei Gu , Tao Ye , Weifei Fu , Gang Wu , Hanying Li ,* and Hongzheng Chen*, Enhanced Photovoltaic Performance of CH3NH3PbI3 Perovskite Solar Cells through Interfacial Engineering Using Self-Assembling Monolayer, Journal of the American Chemical Society, 137 (7) (2015), 2674-2679
27) Lijian Zuo, Shuhua Zhang, Hanying Li, Hongzheng Chen*, Towards Highly efficient large area ITO-free organic solar cells with conductance gradient transparent electrode, Advanced Materials, 27 (43) (2015), 6983-6989.
28) 杨志胜，杨立功*，吴刚，汪茫，陈红征*，基于有机/无机杂化钙钛矿有序结构的异质结及其光伏性能的研究，化学学报，69 (6) (2011), 627-632.

2. 代表性专利：申报人（按原排序）；专利名称；申请年份、申请号；批准年份、专利号；
1) 陈红征，杨伟涛，裘伟明；一种低暗电流的有机近红外光探测二极管；2021、202110166645.2；2022、ZL202110166645.2。
2) 陈红征，占玲玲，李水兴，施敏敏，李寒莹；一种基于非富勒烯受体合金的高效三元有机太阳电池；2019、201910954547.8；2021、ZL201910954547.8。
3) 陈红征，占玲玲，李水兴，施敏敏；一种高效率的三元有机太阳电池；2018、201810024413.1；2019、ZL201810024413.1。
4) 陈红征，鄢杰林，傅伟飞，吴刚；垂直取向结构的二维有机-无机杂化钙钛矿薄膜材料；2017、201710024826.5；2019、ZL201710024826.5。
5) 陈红征，左立见；有机串联叠层太阳电池的中间连接层及构成的高效太阳电池；2014、201410476305.X；2017、ZL201410476305.X。
6) 陈红征，马春燕，傅伟飞，王玲，杨曦，徐明生；基于二硫化钨纳米片材料的有机太阳电池及其制备方法；2014、201410710313.6；2017、ZL201410710313.6。
7) 陈红征，刘诗咏，施敏敏，李寒莹；一种非均相催化碳-碳键偶联反应制备导电共轭聚合物的方法；2012、201210403597.5；2015、ZL201210403597.5。
8) 陈红征，杨曦，徐明生；具有高分散性的金属纳米点规则修饰的石墨烯片复合材料及原位制备方法；2011、 201110049804.7；2014、ZL201110049804.7。
9) 陈红征，戴润英，吴刚，汪茫；一种含氟电子墨水微胶囊的制备方法；2009、200910157129.2；2012、 ZL200910157129.2。
10) 陈红征，刘楠，施敏敏，杨立功，吴刚，汪茫；一种多孔硅/DPP光电复合材料的制备方法；2008、200810062319.1；2009、ZL200810062319.1。

3. 著作：作者（按原排序），著作名称，出版社，出版年份，出版地。
陈红征，段炼，有机-无机复合光电材料及其应用，科学出版社，2020，北京。

代表性奖励荣誉情况

1. 陈红征；全国创新争先奖；2023年，人力资源社会保障部、中国科协、科技部、国务院国资委。
2. 陈红征，施敏敏，左立见，李昌治，李水兴，高效低成本有机太阳能电池的材料设计与器件构筑新策略，浙江省自然科学奖一等奖，2022年，浙江省人民政府。
3. 陈红征；中国化学会青年化学奖；2000年，中国化学会。
4. 汪茫，陈红征，杨士林；酞菁类光电导共混复合材料的研究，国家教委科技进步三等奖；1995年，国家教育委员会。
5. 陈红征；全国女职工建功立业标兵；2009年，中华全国总工会。
6. 陈红征；浙江省巾帼发明者； 2009年，浙江省妇女联合会、浙江省知识产权局、浙江省发明协会。
7. 陈红征；浙江省三八红旗手；2008年，浙江省妇女联合会。
8. 陈红征；基金委国家杰出青年基金；2002年，国家自然科学基金委。
9. 陈红征；教育部跨世纪优秀人才培养计划；2002年，中国教育部。
10. 陈红征；浙江省万人计划杰出人才；2020年，浙江省委人才办。

*以上信息由会士个人更新和维护。